CN223748396U - Shaping mechanism - Google Patents

Abstract

The utility model provides a shaping mechanism which comprises a base, a pressing assembly and stop assemblies, wherein the pressing assembly comprises a first transmission part, a pressing part, fixing parts and elastic parts, the first transmission part is arranged on the base and can move along the length direction of the first transmission part, a plurality of fixing parts are arranged on the first transmission part at intervals along the length direction, the pressing parts are arranged on the first transmission part between two adjacent fixing parts, the pressing parts can move along the length direction of the first transmission part, the elastic parts are sleeved on the first transmission part between each fixing part and each pressing part, and the stop assemblies are arranged on one side of the first transmission part and are arranged on the base at intervals along the length direction of the first transmission part, and a containing position is formed on the base between every two stop assemblies. The shaping mechanism can simultaneously shape a plurality of workpieces, and has high shaping efficiency.

Description

Shaping mechanism

Technical Field

The utility model belongs to the technical field of battery processing, and particularly relates to a shaping mechanism.

Background

In workpiece processing, the workpiece is often required to be shaped, but at present, a shaping mechanism can only shape one workpiece generally, and shaping efficiency is low.

Disclosure of utility model

The utility model aims to provide a shaping mechanism which can simultaneously shape a plurality of workpieces and has high shaping efficiency.

The utility model adopts the technical proposal that

A base;

The first transmission piece is arranged on the base and can move along the length direction of the first transmission piece;

The plurality of compressing assemblies, each compressing assembly comprises a fixing piece, a compressing piece and an elastic piece, the fixing pieces in the plurality of compressing assemblies are arranged at intervals along the length direction of the first transmission piece, the compressing pieces in the plurality of compressing assemblies are arranged on the first transmission piece in a sliding way, the elastic piece is arranged between the fixing piece and the compressing piece of each compressing assembly, and

The stop assemblies are positioned on one side of the first transmission member and are arranged on the base at intervals along the length direction of the first transmission member, a containing position is formed on the base between every two stop assemblies, the containing position is used for placing a workpiece, and each pressing member corresponds to one Rong Zhiwei;

The workpiece positioned at the accommodating position protrudes between two adjacent pressing assemblies, the pressing piece in the pressing assembly supports the workpiece against one stop assembly, or,

The pressing piece in the pressing assembly protrudes between the two stop assemblies so as to press the workpiece on the accommodating position on one stop assembly.

In the shaping mechanism, a first transmission part is arranged on a base and can move along the length direction of the first transmission part, the shaping mechanism further comprises a plurality of pressing assemblies, each pressing assembly comprises a fixing part, pressing parts and elastic parts, the fixing parts in the plurality of pressing assemblies are arranged at intervals along the length direction of the first transmission part, the pressing parts in the plurality of pressing assemblies are slidably arranged on the first transmission part, the elastic parts are arranged between the fixing parts and the pressing parts of each pressing assembly, when the first transmission part moves, each pressing part can be driven to move through the corresponding fixing part and the elastic parts, namely, the plurality of pressing parts can be simultaneously driven to move when the first transmission part moves, a plurality of stop assemblies are arranged on the base on one side of the first transmission part at intervals along the length direction of the first transmission part, a containing position is formed on the base between every two stop assemblies, each containing position can be respectively placed into a workpiece, each pressing part on the first transmission part corresponds to one containing position, thus, when the first transmission part moves, each pressing part can be driven to move, each pressing part can be pressed against the workpiece, and the elastic parts can be prevented from being pressed against the workpiece, and the elastic parts can be pressed against the stop parts.

That is, the shaping mechanism of the application can simultaneously shape a plurality of workpieces with high shaping efficiency.

Optionally, the pressing piece is located at the outer side of the stop assembly, and the workpiece on the accommodating position can protrude to the outer side of the stop assembly and corresponds to the pressing piece, and the pressing piece can act on the protruding portion of the workpiece.

Optionally, the pressing member is located between two adjacent stop assemblies.

Optionally, the first transmission members are oppositely arranged on the base, and the stop assembly is arranged on the base between the first transmission members;

Each first transmission piece is respectively provided with a pressing piece, one pressing piece on the first transmission piece on one side of the stop assembly corresponds to one pressing piece on the first transmission piece on the other side of the stop assembly, and the opposite pressing pieces are connected through connecting pieces.

Optionally, the pressing assembly further comprises a linear bearing, and the first transmission member is connected with the base through the linear bearing.

Optionally, the pressing assembly further includes a sliding structure, and each pressing member is connected with the base through the sliding structure.

Optionally, the pressing assembly further includes a driving structure, where the driving structure is disposed on the base, and the driving structure is in driving connection with the first transmission member, so that the first transmission member can move along a length direction thereof.

Optionally, the driving structure includes a driving member and a second transmission member, the driving member is disposed on the base, and the second transmission member is connected with the first transmission member and the driving member respectively.

Optionally, the workpiece positioning device further comprises limiting components, wherein the limiting components are arranged on two sides of the stopping component and extend along the length direction of the first transmission piece respectively, and the stopping component limits the workpiece on two sides of the stopping component.

Optionally, the device further comprises a mounting seat, the mounting seat is arranged on the base between the first transmission members, the stop assemblies are arranged on the mounting seat, a containing position is formed on the mounting seat between every two stop assemblies, the mounting seat is provided with an avoidance space, and the connecting members are respectively connected with the pressing members through the avoidance spaces.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present utility model, the drawings that are needed in the embodiments or the description of the prior art will be briefly described below, it being obvious that the drawings in the following description are only some embodiments of the present utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic structural diagram of a shaping mechanism according to a first embodiment of the present utility model;

Fig. 2 is a schematic structural diagram of an installation seat in the shaping mechanism provided by the utility model;

Fig. 3 is a schematic structural diagram of a shaping mechanism according to a second embodiment of the present utility model.

Reference numerals:

100. 110, a holding position;

200. The device comprises a compressing component, 210, a first transmission part, 220, a compressing part, 230, a fixing part, 240, an elastic part, 250, a connecting part, 260, a linear bearing, 270, a supporting seat, 280, a sliding structure, 281, a sliding rail, 282, a sliding block, 290, a driving structure, 291, a driving part, 292 and a second transmission part;

300. 400 parts of stop assemblies, 410 parts of limit rods, 420 parts of upright posts, 500 parts of mounting seats, 510 parts of avoiding spaces and 600 parts of workpieces.

DETAILED DESCRIPTION OF EMBODIMENT (S) OF INVENTION

In order to make the technical problems, technical schemes and beneficial effects to be solved more clear, the utility model is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model.

It will be understood that when an element is referred to as being "mounted" or "disposed" on another element, it can be directly on the other element or be indirectly on the other element. When an element is referred to as being "connected to" another element, it can be directly connected to the other element or be indirectly connected to the other element.

It is to be understood that the terms "length," "width," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like indicate or are based on the orientation or positional relationship shown in the drawings, merely to facilitate describing the utility model and simplify the description, and do not indicate or imply that the shaping mechanisms or elements referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the utility model.

Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include one or more such feature. In the description of some utility models, the meaning of "a plurality" is two or more, unless explicitly defined otherwise.

Referring to fig. 1, a reshaping mechanism includes a base 100, a plurality of compression assemblies 200, a first transmission 210, and a stop assembly 300. The pressing assembly 200 and the stop assembly 300 are respectively disposed on the base 100, and the pressing assembly 200 is used for pressing the workpiece 600 onto the stop assembly 300 to shape the workpiece 600. Wherein the workpiece 600 may be a battery or an electrical property in a battery.

Further, each compression assembly 200 may include a compression member 220, a fixing member 230, and an elastic member 240. The first transmission member 210 is disposed on the base 100, and the first transmission member 210 can move along the length direction thereof. The fixed parts in the plurality of compressing assemblies are arranged at intervals along the length direction of the first transmission part, the compressing parts in the plurality of compressing assemblies are arranged on the first transmission part in a sliding mode, and an elastic part is arranged between the fixed part of each compressing assembly and the compressing part.

In an embodiment, the fixing member 230 may be a protrusion provided on the first transmission member 210, or the fixing member 230 may be a clamping block structure clamped and fixed on the first transmission member 210, and it is understood that the clamping block structure may facilitate the fixing member 230 provided on the first transmission member 210.

The stop assemblies 300 are located at one side of the first transmission member 210 and are disposed on the base 100 at intervals along the length direction of the first transmission member 210, a containing position 110 is formed on the base 100 between every two stop assemblies 300, the containing position 110 is used for placing the workpiece 600, and each pressing member 220 corresponds to one containing position 110 so as to press the workpiece 600 on the containing position 110 onto the stop assemblies 300. It can be appreciated that in the above structure, a plurality of accommodating positions 110 may be disposed on the base 100 along the length direction of the first transmission member 210, and each accommodating position 110 may accommodate one workpiece 600, that is, a plurality of workpieces 600 may be simultaneously placed on the base 100.

During shaping, a plurality of workpieces 600 can be placed on a corresponding accommodating position 110 respectively, then the first transmission member 210 is moved along the length direction of the workpiece, when the first transmission member 210 moves, each fixing member 230 on the first transmission member 210 can synchronously move along with the first transmission member 210, and each fixing member 230 moving process can drive the corresponding pressing member 220 to move through the corresponding elastic member 240 respectively, so that the pressing member 220 moves to be in contact with the workpiece 600 located on the accommodating position 110 and presses the workpiece 600 on the stop assembly 300, and the elastic member 240 can play a buffering role in the process of pressing the workpiece 600 by the pressing member 220, so that the workpiece 600 can be elastically pressed by the pressing member 220, and the workpiece 600 is prevented from being crushed.

Further, in an embodiment, in order to enable each pressing member 220 corresponding to the accommodating position 110 to press the workpiece 600 against the stop assembly 300 while avoiding interference with the pressing member 220 when the workpiece 600 is accommodated in the accommodating position 110, the pressing member 220 of each pressing assembly 200 may be located at an outer side of the stop assembly 300, the workpiece 600 on the accommodating position 110 may protrude to the outer side of the stop assembly 300 and correspond to the pressing member 220, and the pressing member 220 may act on a protruding portion of the workpiece 600 and press the workpiece 600 against a stop assembly 300.

That is, when the pressing member 220 moves, the pressing member 220 may act on a portion of the workpiece 600 protruding to the outside of the stopper assembly 300, thereby pressing the workpiece 600 against the stopper assembly 300.

In addition, in the above manner, the length of the stopper assembly 300 may be made smaller than the length of the workpiece 600 so that the workpiece 600 can protrude to the outside of the stopper assembly 300.

Of course, in other embodiments, the pressing member 200 of the pressing assembly 200 protrudes between the two stop assemblies 300 to press the workpiece on the accommodating position 110 against one stop assembly 300.

In the shaping mechanism of the present application, a first driving member 210 is disposed on a base 100, and the first driving member 210 can move along the length direction thereof, a plurality of fixing members 230 are disposed on the first driving member 210 along the length direction at intervals, a pressing member 220 is disposed on the first driving member 210 between two adjacent fixing members 230, and the pressing member 220 can move along the length direction of the first driving member 210, an elastic member 240 is sleeved on the first driving member 210 between each fixing member 230 and the pressing member 220, when the first driving member 210 moves, each pressing member 220 can be driven to move by a corresponding fixing member 230 and elastic member 240, that is, when the first driving member 210 moves, a plurality of pressing members 220 can be simultaneously driven to move, a plurality of stop members 300 are disposed on the base 100 on one side of the first driving member 210 along the length direction of the first driving member 210 at intervals, a capacity position 110 is formed on the base 100 between each two stop members 300, each capacity position 110 can be respectively placed into a workpiece 600, and each pressing member 220 on the first driving member 210 can be correspondingly pressed against each capacity position 220, and when the corresponding pressing member 220 on the first driving member 210 is pressed against the corresponding workpiece 600, the elastic member 220 can be prevented from being pressed against the corresponding workpiece 220, and the elastic member 220 can be pressed against the corresponding workpiece 600 to realize the elastic member to realize the pressing.

That is, the shaping mechanism of the present application can simultaneously shape a plurality of workpieces 600 with high shaping efficiency.

Referring to fig. 1, the pressing assembly 200 may include a first transmission member 210 disposed opposite to the base 100, and the stop assembly 300 is disposed on the base 100 between the first transmission members 210. Each first transmission member 210 is provided with a pressing member 220, and one pressing member 220 on the first transmission member 210 on one side of the stop assembly 300 corresponds to one pressing member 220 on the first transmission member 210 on the other side of the stop assembly 300, and the corresponding pressing members 220 are connected through a connecting member 250.

It can be appreciated that the pressing members 220 on the oppositely disposed first transmission members 210 can act on two sides of the workpiece 600 by moving the oppositely disposed first transmission members 210 along the length direction thereof, so that the shaping effect can be improved by acting on two sides of the workpiece 600 to press the workpiece 600 against the stop assembly 300, and the shaping stability of the workpiece 600 can be ensured.

In addition, the corresponding pressing members 220 are connected through the connecting members 250, so that the corresponding pressing members 220 can move synchronously, and the shaping effect and stability of the workpiece 600 are ensured.

For example, two first driving members 210 may be disposed opposite to each other, and the stop assemblies 300 may be disposed on the base 100 between the two first driving members 210, and spaced apart along the length direction of the first driving members 210.

Referring to fig. 1, for convenience in enabling the first transmission member 210 to move in the length direction thereof, the compressing assembly 200 may further include a linear bearing 260, and the first transmission member 210 is coupled to the base 100 through the linear bearing 260.

For example, two ends of the first transmission member 210 may be disposed on the base 100 through a linear bearing 260, respectively. When a force is applied to the first transmission member 210, the first transmission member 210 is able to slide within the linear bearing 260.

In one embodiment, to facilitate the connection of the linear bearing 260 to the base 100, the pressing assembly 200 may further include a support 270, where the linear bearing 260 is disposed on the support 270, and the support 270 is connected to the base 100. In addition, the mounting height of the first transmission member 210 can be adjusted by selecting the supporting seats 270 with different heights.

Referring to fig. 1 and 2, the compressing assembly 200 may further include a sliding structure 280, and each compressing member 220 is connected to the base 100 through the sliding structure 280, respectively. The sliding structure 280 may improve the stability of the movement of the compressing member 220, and at the same time, improve the accuracy of the movement of the compressing member 220.

For example, the sliding structure 280 may include a sliding rail 281 and a sliding block 282, the sliding rail 281 is disposed on the base 100 and extends along the length direction of the first transmission member 210, and each pressing member 220 may be slidably disposed on the sliding rail 281 through one sliding block 282.

In some embodiments, when two first transmission members 210 are provided, each first transmission member 210 may be correspondingly provided with one sliding structure 280, and the pressing member 220 on each first transmission member 210 may be disposed on the base 100 through the corresponding sliding structure 280.

Referring to fig. 1 and 3, the compressing assembly 200 may further include a driving structure 290, where the driving structure 290 is disposed on the base 100, and the driving structure 290 is in driving connection with the first transmission member 210, so that the first transmission member 210 can move along the length direction thereof.

Further, the driving structure 290 may include a driving member 291 and a second driving member 292, wherein the driving member 291 is disposed on the base 100, and the second driving member 292 is connected to the first driving member 210 and the driving member 291, respectively.

Specifically, the driving member 291 can move by driving the second driving member 292, and the second driving member 292 drives the first driving member 210 to move during the movement. Wherein the driving member 291 may be a cylinder.

Alternatively, in some embodiments, the drive member 291 may be connected to the second transmission 292 by a floating joint.

In some embodiments, when two first transmission members 210 are provided, two ends of the second transmission member 292 may be connected to one first transmission member 210, and the driving member 291 drives the second transmission member 292 to move, so that the second transmission member 292 can simultaneously drive the oppositely disposed first transmission members 210 to move simultaneously.

Specifically, to facilitate the fixed connection of the second transmission member 292 to the first transmission member 210, an end portion of the second transmission member 292 may be connected to the first transmission member 210 through a clamping block structure. That is, the second transmission member 292 may be fixed by being clamped with the first transmission member 210.

Referring to fig. 3, the shaping mechanism may further include a limiting assembly 400, where the limiting assembly 400 is disposed at two sides of the stop assembly 300 and extends along the length direction of the first transmission member 210, and the stop assembly 300 limits the workpiece 600 at two sides of the stop assembly 300, so that the workpiece 600 can be accurately fed on the accommodating position 110.

It can be appreciated that, in an embodiment, when the first transmission members 210 are respectively disposed on two sides of the stop assembly 300 and the pressing members 220 are respectively disposed on each first transmission member 210, the pressing members 220 on the first transmission members 210 on two sides need to simultaneously press the workpiece 600, and in an embodiment, the pressing members 220 are located on the outer sides of the stop assembly 300, so that the workpiece 600 is limited by the limiting assemblies 400 on two sides of the stop assembly 300, so that the workpiece 600 can be ensured to be accurately fed onto the accommodating position 110, and the pressing members 220 on the first transmission members 210 on two sides can be accurately acted on the workpiece 600.

Specifically, in an embodiment, the limiting assembly 400 may include a limiting rod 410 and a stand 420, the limiting rod 410 is located on a side surface of the stop assembly 300, the limiting rod 410 is disposed on the base 100 through the stand 420, the limiting rod 410 extends along a length direction of the first transmission member 210, and the limiting rod 410 is used for limiting the stop workpiece 600.

Referring to fig. 2, the shaping mechanism may further include a mounting base 500, the mounting base 500 is disposed on the base 100 between the first transmission members 210, the stop assemblies 300 are disposed on the mounting base 500, the accommodating positions 110 are formed on the mounting base 500 between every two stop assemblies 300, the mounting base 500 is provided with an avoidance space 510, and the connecting members 250 are respectively connected with the pressing members 220 through the avoidance spaces 510.

It can be appreciated that by arranging the mounting seat 500 on the base 100, and arranging the avoidance space 510 on the mounting seat 500, the connecting piece 250 connected between the pressing pieces 220 on the first transmission pieces 210 which are oppositely arranged can be accommodated in one avoidance space 510, so that interference between the connecting piece 250 and the workpiece 600 or the base 100 and the like when moving along with the pressing pieces 220 is avoided.

For example, in one embodiment, the side of the mounting base 500 adjacent to the base 100 may be provided with a relief groove extending along the length direction of the first transmission member 210 to form a relief space 510, in which the connection member 250 connected to the compression member 220 is located, and the relief groove may relief the connection member 250 when the connection member 250 moves along the length direction of the first transmission member 210 along with the compression member 220.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the utility model.

Claims (8)

1. A shaping mechanism, comprising:

A base;

The first transmission piece is arranged on the base and can move along the length direction of the first transmission piece;

The plurality of compressing assemblies, each compressing assembly comprises a fixing piece, a compressing piece and an elastic piece, the fixing pieces in the plurality of compressing assemblies are arranged at intervals along the length direction of the first transmission piece, the compressing pieces in the plurality of compressing assemblies are arranged on the first transmission piece in a sliding way, the elastic piece is arranged between the fixing piece and the compressing piece of each compressing assembly, and

The stop assemblies are positioned on one side of the first transmission member and are arranged on the base at intervals along the length direction of the first transmission member, a containing position is formed on the base between every two stop assemblies, the containing position is used for placing a workpiece, and each pressing member corresponds to one Rong Zhiwei;

The workpiece positioned at the accommodating position protrudes between two adjacent pressing assemblies, the pressing piece in the pressing assembly supports the workpiece against one stop assembly, or,

The pressing piece in the pressing assembly protrudes between the two stop assemblies so as to press the workpiece on the accommodating position on one stop assembly.

2. The truing mechanism of claim 1 wherein said first drive members are oppositely disposed on said base and said stop assembly is disposed on said base between said first drive members;

Each first transmission piece is respectively provided with a pressing piece, one pressing piece on the first transmission piece on one side of the stop assembly corresponds to one pressing piece on the first transmission piece on the other side of the stop assembly, and the opposite pressing pieces are connected through connecting pieces.

3. The truing mechanism of claim 2 wherein said compression assembly further includes a linear bearing, said first transmission member being coupled to said base by said linear bearing.

4. The shaping mechanism as set forth in claim 1 wherein said compression assembly further includes a sliding structure, each of said compression members being respectively coupled to said base by said sliding structure.

5. The shaping mechanism as set forth in claim 1 wherein said compression assembly further includes a drive structure disposed on the base and drivingly connected to said first transmission member for enabling movement of said first transmission member along its length.

6. The truing mechanism of claim 5 wherein said drive structure includes a drive member and a second drive member, said drive member being disposed on said base, said second drive member being connected to said first drive member and said drive member, respectively.

7. The truing mechanism of claim 1 further comprising stop assemblies disposed on opposite sides of said stop assemblies and extending along a length of said first drive member, respectively, said stop assemblies limiting said workpiece on opposite sides of said stop assemblies.

8. The truing mechanism of claim 2 further including a mounting base disposed on said base between said first drive members, said stop assemblies disposed on said mounting base, each two of said stop assemblies having a receiving location formed thereon between said mounting base, said mounting base being provided with a relief space through which said connecting members are respectively connected to said compression members.